Morpholino
MO3-smarca5
- ID
- ZDB-MRPHLNO-150318-2
- Name
- MO3-smarca5
- Previous Names
-
- translation-blocking (1)
- Target
- Sequence
-
5' - CTTCTTCCCGCTGCTGCTCCATGCT - 3'
- Disclaimer
- Although ZFIN verifies reagent sequence data, we recommend that you conduct independent sequence analysis before ordering any reagent.
- Note
- None
- Genome Resources
- None
Target Location
Genomic Features
No data available
Expression
Gene expression in Wild Types + MO3-smarca5
No data available
Phenotype
Phenotype resulting from MO3-smarca5
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Phenotype of all Fish created by or utilizing MO3-smarca5
Phenotype | Fish | Conditions | Figures |
---|---|---|---|
whole organism decreased size, abnormal | twu34Tg + MO3-smarca5 | control |
Fig. 1
from Aguirre et al., 2014 |
cardiac ventricle decreased size, abnormal | twu34Tg + MO3-smarca5 | control |
Fig. 1
from Aguirre et al., 2014 |
whole organism decreased size, abnormal | twu34Tg + MO2-fntb + MO3-smarca5 | control |
Fig. 1
from Aguirre et al., 2014 |
cardiac ventricle decreased size, abnormal | twu34Tg + MO2-fntb + MO3-smarca5 | control |
Fig. 1
from Aguirre et al., 2014 |
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Citations
- Ding, Y., Wang, W., Ma, D., Liang, G., Kang, Z., Xue, Y., Zhang, Y., Wang, L., Heng, J., Zhang, Y., Liu, F. (2020) Smarca5 mediated epigenetic programming facilitates fetal HSPC development in vertebrates. Blood. 137(2):190-202
- Hoang, T., Wang, J., Boyd, P., Wang, F., Santiago, C., Jiang, L., Yoo, S., Lahne, M., Todd, L.J., Jia, M., Saez, C., Keuthan, C., Palazzo, I., Squires, N., Campbell, W.A., Rajaii, F., Parayil, T., Trinh, V., Kim, D.W., Wang, G., Campbell, L.J., Ash, J., Fischer, A.J., Hyde, D.R., Qian, J., Blackshaw, S. (2020) Gene regulatory networks controlling vertebrate retinal regeneration. Science (New York, N.Y.). 370(6519):
- Aguirre, A., Montserrat, N., Zacchigna, S., Nivet, E., Hishida, T., Krause, M.N., Kurian, L., Ocampo, A., Vazquez-Ferrer, E., Rodriguez-Esteban, C., Kumar, S., Moresco, J.J., Yates, J.R., Campistol, J.M., Sancho-Martinez, I., Giacca, M., Izpisua Belmonte, J.C. (2014) In Vivo Activation of a Conserved MicroRNA Program Induces Mammalian Heart Regeneration. Cell Stem Cell. 15:589-604
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